Volume 16 Issue 4 of #OPG_OMEx is now live: https://bit.ly/4c10Zdc

On the cover is a single-direction raster that generates a thermal gradient, driving dewetting and directional mass flow across the thin film.

See details at Coleman et al.: https://bit.ly/4tldFTi

Via #OPG_OMEx: Dilute noble metal films for infrared optics and plasmonics [Invited] https://bit.ly/4s9XHKR #DiluteMetalFilms #PlasmonicMaterials @utaustin.bsky.social 💡⚛️

Via #OPG_OMEx: Are there new and improved second-order nonlinear optical materials on the horizon? [Invited] https://bit.ly/4rlPEKA #NonlinearOpticalCrystals #OrganicMaterials 💡⚛️

Via #OPG_OMEx: Cycle-dependent degradation of second-harmonic generation characteristics in CsLiB6O10 associated with the reabsorption of water impurities https://bit.ly/3PIOqvA #NonlinearOpticalCrystals #LaserSources💡⚛️

On this #ThankYouEditorsThursday, we'd like to thank our outgoing #OPG_OMEx Associate Editor Germano Montemezzani, University of Lorraine. Thank you for supporting @opg.optica.org and in particular Optical Materials Express!

Via #OPG_OMEx: Are there new and improved second-order nonlinear optical materials on the horizon? [Invited] https://bit.ly/4rlPEKA #OrganicMaterials #NonlinearOpticalCrystals💡⚛️

Via #OPG_OMEx: Dielectric environment engineering via 2D material heterostructure formation on a hybrid photonic crystal nanocavity [Invited] https://bit.ly/40ah1w4 #2DMaterials #WhisperingGalleryModes💡⚛️

Volume 16 Issue 3 of #OPG_OMEx is now live: https://bit.ly/4tZg1bN

The cover displays actuation behavior of a (2L) MB10 bilayer liquid crystal network film under light-induced thermal stimulation.

See details at Soman and Zappe et al.: https://bit.ly/4bf6CFu

An Editors' Pick via #OPG_OMEx: Ultrafast optical phase response associated with photoinduced phase transition in VO2 https://bit.ly/4c8nf6M #FemtosecondPulses #IntegratedPhotonics💡⚛️

Via #OPG_OMEx: Interband response of type-II quantum cascade detectors [Invited] https://bit.ly/3Oh6tbP #InfraredDetectors #BlueShift💡⚛️

Via #OPG_OMEx: Temperature-tunable cholesteric liquid crystal selective mirror for multispectral imaging applications https://bit.ly/4aqJJ0r #LiquidCrystals #MultispectralImaging💡⚛️

An Editors' Pick via #OPG_OMEx: Ultrafast fiber lasers mode-locked by carbon nanotube and graphene saturable absorbers: review and prospects [Invited] https://bit.ly/4k4qldO #Modelocking #UltrafastFiberLasers💡⚛️

Volume 16 Issue 2 of #OPG_OMEx is now live: https://bit.ly/4aobqb9

The cover shows ultrafast nonlinear absorption in carbon nanotube/graphene nanomaterials, reshaping incident light into a coherent short-pulse laser output.

See details at Dai et al.: https://bit.ly/4k4qldO

Via #OPG_OMEx: Intrinsically stretchable and transparent conductors for next-generation soft optoelectronics [Invited] https://bit.ly/4aebaeS #TransparentConductors #ThinFilms 💡⚛️

An Editors' Pick via #OPG_OMEx: High-efficiency grating fiber-chip couplers in wide bandgap III-nitride material platforms opg.optica.org/ome/fulltext... #GratingCouplers #PhotonicIntegratedCircuits 💡 ⚛️

An Editors' Pick via #OPG_OMEx: Optical control of the fluorescence spatial hole burning effect in monolayer WS2 opg.optica.org/ome/fulltext... #OpticalControl #SpatialHoleBurning💡 ⚛️

Via #OPG_OMEx: Complex oxide thin films towards surface-phonon-polariton-based infrared optoelectronics [Invited] opg.optica.org/ome/fulltext.cfm #InfraredNanophotonics #InfraredDetectors 💡 ⚛️

Via #OPG_OMEx: Intersubband polariton-LO phonon interaction in mid-infrared non-dispersive cavities: experimental demonstration of spontaneous scattering and perspectives towards polariton lasing [Invited] opg.optica.org/ome/fulltext... #PolaritonPhononScattering #OpticalBlochEquations ⚛️💡

Via #OPG_OMEx: Integrated nonlinear photonics with chalcogenide glasses: compositions, properties, applications, and roadmap [Invited] opg.optica.org/ome/fulltext... #Nonlinearphotonics

Via #OPG_OMEx: MBE growth of GaSb on Ge-based templates grown on Si for mid-infrared photonics [Invited] opg.optica.org/ome/fulltext... #PhotonicMaterials

An Editors' Pick via #OPG_OMEx: Experimental realization of wide-mode-area slow light modes in valley photonic crystal heterostructure waveguides https://bit.ly/487Y2HJ #TopologicalPhotonics 💡

An Editors' Pick via #OPG_OMEx: Modifying electronic and structural properties of 2D van der Waals materials via cavity quantum vacuum fluctuations: a first-principles QEDFT study [Invited] opg.optica.org/ome/fulltext... #2DQuantumMaterials @maxplanckpress.de

Via #OPG_OMEx: Ultra-thin photonic crystal slab metalenses [Invited] opg.optica.org/ome/fulltext... #PhotonicCrystals #Metalenses #HighFocusingEfficiency

An Editors' Pick via #OPG_OMEx: On-chip terahertz emission from Floquet-Bloch states [Invited] opg.optica.org/ome/fulltext... #QuantumMaterials #FloquetEngineering #TerahertzSources

An Editors' Pick via #OPG_OMEx: Can thermal emission from time-varying media be described semiclassically? [Invited] opg.optica.org/ome/fulltext... #QuantumElectrodynamics #TemporalMetamaterial

Via #OPG_OMEx: Dynamically-tunable nonreciprocal epsilon-near-zero photonic platform enabled by current-biased Dirac semimetals opg.optica.org/ome/fulltext... #NonreciprocalAbsorbers #IntegratedPhotonics @mit.edu

An Editors' Pick via #OPG_OMEx: Prospects for THz optoelectronic devices using chalcogenide topological materials and recent progress on their synthesis by molecular beam epitaxy [Invited] opg.optica.org/ome/fulltext... #TerahertzOptoelectronics #MolecularBeamEpitaxySynthesis

Optical Materials Express Feature issueExpand this Topic

#OPG_OMEx welcomes submissions to a Feature Issue on Epitaxial Materials for Photonics. Excited to be part of the guest editor team for this special issue!!
Submissions close 1 June:

Optical materials express feature issueExpand this Topic

🌟 Submissions Open: Optical Materials Express 🌟

#OPG_OMEx invites submissions on Polaritons in Mesoscale Structures & Quantum Materials. Guest Editor: Dr. Alexander Paarmann. Deadline: 1 July.

Details: opg.optica.org/content/feat...

#ResearchOpportunity #FritzHaberInstitute #MaxPlanckSociety

Researchers show, for the first time, the recycling of the nanoparticles used in the creation of microscopic supraparticle #lasers: bit.ly/4iamZVx

This new method reduces costs and #environmental impact by minimizing the need for new nanoparticles and the disposal of old ones.

#OPG_OMEx 🧪⚛️💡